Natural antioxidant additive for feed and drinking water

ABSTRACT

A natural intestine-functional additive with antioxidative properties for utilization as an additive in animal feed containing natural and/or nature identical active substances. The substance include a first active component containing antioxidative active substances derived from plant material from olive plants ( Olea europaea  L) and a second active component containing antioxidative active substances derived from plant material from grape plants ( Vitis vinifera  L).

BACKGROUND OF THE INVENTION

The present invention relates to both an intestine-functional feed additive with antioxidative properties based on natural or nature identical active substances, and a feed mix that contains the additive, as well as a method for production of domestic animals.

The use of antibiotic or chemotherapeutic substances, referred to as ‘growth promoters’, in the production of livestock is well known. In recent years attention has increasingly focused on problems related to the widespread use of antibiotics or chemotherapeutics as growth promoters. More and more pathogenic micro-organisms are able to develop resistance to the antibiotics which thus become less effective. There is a risk that residues of antibiotics are left in animal products consumed by humans, whereby microorganisms that cause disease can become resistant. Also, there is a risk of consuming antibiotic-resistant micro-organisms through animal products. Antibiotics may be rediscovered in the ground water and in streams. Finally there is a risk that humans, who produce and use feed containing antibiotics, will have antibiotics-resistant bacteria in their bodies.

In consequence of the above a continued use of antibiotics as growth promoters is, among others, expected to increase the risk of epidemic outbreaks among animals and/or humans, which cannot be treated by antibiotics. A considerable number of humans have already developed allergy towards certain antibiotics. Furthermore, one of the so far used chemo-therapeutic growth promoters has shown to be causing cancer.

The result of this has already been a complete stop of the use of classical growth promoters in swine production in various countries, including Denmark and Sweden, and will be banned within the EU by the end of 2005.

As a consequence of the relations mentioned above, and to ensure the economy and sustainability in livestock farming, new alternative methods are sought to ensure the live-stock's growth conditions free of both disease and use of antibiotics.

Such drugs can advantageously be based on natural or nature identical active substances. To ensure the acceptance of these new additives by the farmer, as well as the feed industry, they should also have the same or even better effect on the animals' growth and feed utilization as the classical growth promoters.

It is well know that many plants contain various functional and/or antibacterial substances, such as saponins, flavonoids, tannins, hydroxycymens and terpenes, and it is also known to exploit such active substances from plant materials in medicine. A considerable part of the positive characteristics of these active substances are caused by their antioxidative characteristics. Antioxidants protect the cells against degradation and harmful substances, reduce the risk of infection, and have a special effect in intensive production systems and stress situations.

Similarly it has been suggested to use such natural substances as daily supplements for both animals and humans. The claimed effects of such active plant components are, however, in many cases not adequately well-documented, and many of the components appear only in small amounts in the concerned plants, just as they are mostly too costly and/or too difficult to access for a preventive daily use as feed additive.

It is well known that olives have a number of health promoting effects, such as lower risk of developing cardiovascular diseases and cancer, which is at least partially due to the high content of antioxidants of the olives. Among the isolated antioxidants from olive oil are phenol components such as simple phenols (hydroxytyrosol ((3.4-dihydroxyphenyl)ethanol), tyrosol (p-hydroxyphenylethanol)), secoiridoids (oleuropein) and lignans (pinoresinol) and other polyphenols (Owen et al., 2000: Olive-oil consumption and health: the possible role of antioxidants. The Lancet Oncology 1, 107-112). These active substances have shown biological activity, such as inhibition of cell growth of cancer cells and antiviral and antioxidative activity (eg. inhibition of oxidation of low-density lipoproteins (LDL) and inhibition of oxidative stress). The antioxidative activity from the active substances found in olives is far more effective than a synthetic form of vitamin E (Owen et al., 2000: Olive-oil consumption and health: the possible role of antioxidants. The Lancet Oncology 1, 107-112). In addition, there has been found in vitro anti-microbial activity in olive leaves (Markin et al. 2003. In vitro anti-microbial activity of olive leaves. Mycoses 46 (3-4): 132-136) and antifungal activity (Del Rio et al. 2003: Enhancement of phenolic compounds in olive plants and their influence on resistance against Phytophthora sp. Food Chemistry 83 (1): 75-78).

It is equally well known that wine and byproducts from wine production have a series of health promoting effects. Wine contains phenols including tannins and pigments, and also organic acids and vitamins. Chromatographic studies have shown a series of flavan-3-ols and flavanols. Known health promoting effects from wine are antibacterial, antiviral, antiallergenic, antioxidative and cancer-inhibiting (Bombardelli & Morazzoni, 1995: Vitis Vinifera L. Fitoterapia, LXVI (4)).

Various patents describe methods for extracting antioxidants from olive based material (U.S. 2002/0004077 A1 (Cuomo et al)., WO 03/086442 discloses naturally occurring plant compounds, extracts and derivatives, among these oleuropein, for protection of health promoting products for humans). Use of antioxidative substances derived from plant material from olives as a feed additive is proposed in DK utility model application DK BA 2004 00319. Patents with wine include a feed additive made solely of a wine by-product (EP 1 419 701 A1) or combined with other mentioned botanical elements containing tannins or flavonoids. Other patents include wine components as feed for animals.

The prior art does not describe a combination of wine and olives as additives for animal feed.

Additionally, many of the mentioned applications and similar applications that include constituents of olives or wine as antioxidant for products for feed for domestic animals, are based on costly extracts. Therefore a cost-effective additive with antioxidative and thus health promoting properties for products for domestic animals is needed. Such product should be more cost-effective than for example a pure olive product, a pure rosemary product or a pure wine-based product.

BRIEF DESCRIPTION OF THE INVENTION

In one aspect, the present invention is directed to a natural intestine-functional additive with antioxidative properties for use as an additive in animal feed, and containing natural and/or nature identical active substances including a first active component containing active antioxidative substances, and which is derived from olive plant material, and a second active component containing antioxidative substances, and that is derived from grape plant material, along with optional conventional carriers and/or additives.

In another aspect, an additive is provided that improves weight gain and feed conversion in production animals and has positive effects on the health of both production animals and pets. Furthermore, the inventive additive improves the quality of animal products such as milk and meat.

In another aspect, a feed mix is provided for domestic animals containing the additive combined with a conventional feed, and instructions are provided for production of domestic animals when the animals are fed the feed mix.

In another aspect, an additive for feed includes a first antioxidant that is at least partially soluble in the oil phase; and a second antioxidant that is at least partially soluble in the water phase, wherein said antioxidants are obtained from different plants.

The extent of applicability of the invention appears from the following detailed description. It should, however, be understood that the detailed description and the specific examples are merely included to illustrate the exemplary embodiments, and that various alterations and modifications within the scope of protection will be obvious to persons skilled in the art on the basis of the detailed description.

DETAILED DESCRIPTION OF THE INVENTION

It is believed that the unexpected result of the inventive combination of materials derived from grape plants and olive plants is at least partially due to a synergistic effect.

A combination of grape plant derivatives and olive plant derivatives can have especially valuable properties since the polyphenols found in olive plants that have anti-oxidative properties are partially soluble in the oil phase and partially soluble in the water phase Hydroxytyrosol is soluble in both the lipid phase and the water phase. The antioxidants in grape plant derivatives are mainly soluble in the water phase. The combination of products from grape plant derivatives and olive plant derivatives results in a product which contains both fat-soluble and water-soluble antioxidants, and also antioxidants that are soluble in both phases, and thereby can act as conveyers between the two phases. A broad-spectred solubility results in increased activity and leads to an increased antioxidative effect because the absorption of the antioxidant mix is increased. It is believed that further mechanisms which are not yet understood contribute to the surprising results of the inventive combination of olives and wine.

According to one embodiment of the invention the additive is obtainable from a by-product from the production of olive oil or on basis of olive leaves. When producing olive oil, a by-product referred to as “pulp”, and waste water emerge. These products have a high content of antioxidants, which is also the case with leaves from the olive tree that are not exploited on a large scale.

Olive is the fruit of the olive tree (Olea europaea L). The production of olive oil is carried out by washing the olive fruits, after which they are crushed in a hammer mill. The obtained “pomace”, a mixture of stone and olive pericarp (the flesh itself), is homogenized and moved to platens, where the oil is squeezed out. The water is then separated from the clear oil. More oil fractions can be derived by squeezing the “pomace” repeatedly.

The other active component in the additive is based on a by-product from wine production, which can be the pomace—i.e. anything remaining but the grape juice. As used herein, this pomace is referred to as “the primary pomace”.

The primary pomace (also called Grape Pomace) from the wine production has traditionally been used as raw material for production of various products. After each step in the process it is possible to achieve a pressed product that to a certain extent can be used in the additive in the present invention.

In red wine production the grape juice ferments with skin and seeds. After 3-7 days the juice is pressed out and this primary pomace is one possible raw material for the active component.

The primary pomace can then be further processed. For example, the seeds can be separated from the skin with the purpose of oil extraction from the seeds. Both the residual products from the oil extraction, the discarded skin, and the discarded seeds are well suited as raw material for the active component in the present invention.

In certain wine districts there is a tradition for further processing of the skin fraction for extraction of natural colorants and the like. In connection with most extraction processes the residual products have an increased content of the active substances that are of interest in this invention. It is also possible to further process the grape seeds, the grape skin, or the total pomace to extract the antioxidants.

An exemplary residual product of the pressing is based on red grapes. Examples thereof include Cabernet Sauvignon, Merlot, Syrah, Pinot Noir, Lemberger or Tempranillo.

The utilized residual product from the pressing can with advantage be from red grapes used for production of white wine as the remaining grape material is removed from the grape juice as shortly after the pressing as practically possible. Consequently, all the active substances relevant to the natural additive are retained in the residual product of the pressing.

It is common to use the primary residual product of the pressing process for extraction of different fermentation products, such as alcohol, citric acid, and tartaric acid, among others. Before fermentation, a fraction of the grape seeds are usually sorted out. The fermentation process produces a residual product, which is the secondary residual product from the pressing that can be used as the additive or part of the additive in connection with this invention. In the secondary residual product the high content of easily transformed energy has been converted in the fermentation process, while the concentration of the active substances relevant to this invention has been increased.

Further, the concentration of the active substances relevant to this invention is further increased as a result of some conventional extraction processes for the preparation of products such as grape seed oil and natural colorants, i.e., enocyanin, utilized on the secondary residual product of the pressing. The residue after such extraction process has an especially high concentration of the relevant active substances. As used herein this is referred to as “the tertiary residual product from the pressing”.

The residual products from the wine production and the waste water from the olive oil production can, immediately after the pressing of the juice, be dried out to a maximum water content of about 8-15 weight %, usually to a maximum water content of about 10% water, or optionally about 8% water. The products can also be preserved by way of addition of 0 to 10% weight NaCl or another salt, and thereafter it can be sent to drying or other preservation. To secure the stability even further 0-5% of an acid appropriate for feed can be used. Examples of such an acid are citric acid, tartaric acid, lactic acid or a mix of these. The addition of one or more of these acids also has a positive effect on the activity of the product, among others because anthocyanines and citric- and tartaric acid function in synergy. Additionally, it has been found that the addition of sodium benzoate and potassium benzoate is advantageous.

To the extent deemed necessary, the waste water, the residual products from the pressing and the dried and ground olive leaves can be concentrated further by removing some of the water remaining in the products. This further concentration can be done by filtration, extraction, centrifugation or other conventional methods.

Extracts can be produced by extraction of the relevant plant material with water, alcohol extracts or a combination thereof, preferably with water or a water/alcohol mixture.

The extracts can be used in the existing liquid form, or in a powder form manufactured by drying, such as spray drying and/or by absorption and/or by adsorption on an expedient carrier agent.

In principle the plant material can be derived from any of the relevant parts of the olive and/or grape plants, especially the leaves and/or fruits, provided such plant material contains antioxidative substances in a sufficient amount. Examples are olive leaves, by products from olive oil production and by-products from wine production.

Thus, one embodiment of the invention includes a first active component obtained from olives and a second active component obtained from grapes. The olive component is obtained from at least one of following raw materials: dried and ground olive leaves or an extract thereof, the residual product from the pressing of olive oil, a concentrated liquid, any extract derived from the waste water of the olive oil production, and any other products obtained from olive plants. The grape component is obtained from at least one of three raw materials based on the residual products from the pressing, with a higher or lower content of active substances. The grape component can also be obtained from any product that arises out of wine grapes, e.g. an extract product from pomace based raw materials.

In the exemplary embodiment the first and the second components of the additive are each at least one of a liquid, a spray dried powder, and a ground product.

The weight ratio of the olive component (component a) to the wine component (component b) in the inventive additive based on the weight of dried extracts is, in one embodiment, in the range of 99:1 to 1:99, more specifically, 80:20 to 20:80, more specifically still 70:30 to 30:70. In a still more specific embodiment, the weight ratio of component a to component b in the inventive additive is 60:40 to 40:60, and in the exemplary embodiment, about 50:50.

The above weight ratios refer to dried extracts. In case the plant material is used in another form, for example if the component is in the form of ground leaves, the amount of that component should be sufficient to provide a similar amount of antioxidative substances as though the component was a dried extract.

In addition, the invention covers all combinations of grape and olive parts, regardless of the technical form or concentration.

Olive leaves and by-products from the production of olive oil together with residual products from the wine pomace contain a series of active substances. Some of these substances are polyphenols having antioxidative properties together with the subgroups anthocyanins and icoligomere procyanidins.

In some embodiments the inventive additive includes fat soluble antioxidative active substances and water soluble antioxidative active substances, and optionally further fat soluble-active substances and/or water soluble active substances.

The additive in this invention typically includes at least the following beneficial effects:

1) Used as a feed additive, an antioxidative effect in the animal by protecting against degradation of cells, reducing the usage of other antioxidants, e.g. Vitamin E and Selenium, and protection against heat stress.

2) Improvement of productivity and health status in animals by having antimicrobial and antiviral properties, improving feed conversion, improving the utilization of nutrients, improving health status by protecting the epithelial cells in the gastrointestinal tract, stimulate the animals' immune system as well as improve response to vaccination and thereby protect against stress related diseases or a production decline, strengthen especially the smallest and weakest animals and achieve a more homogeneous production.

3) Improvement of product quality by improvement of the water-holding properties (reduction of drip loss) by protecting the cell membranes, improvement of the meat color by delaying the pigment, oxidation from the red oxymyoglobin to the brown metmyoglobin, improvement of the stability of the fatty acids, and thereby the shelf life of the meat, by delaying lipid oxidation through the antioxidative activity of the product, and improvement of meat quality by lowering the risk of developing PSE (pale, soft and exudative) by stress reduction.

The inventive additive can, with great benefit, be used for monogastric animals, ruminants, fish, crustaceans, and pets.

In one embodiment, depending on the concentration and the variation of the active substances in the raw material relevant to the invention, the raw material is mixed with an appropriate carrier. Accordingly, the final product is standardized and diluted such that the compounders and home mixers can mix directly in the feed.

In one embodiment, suitable carrier substances include mineral carrier substances such as clay minerals and zeolites—sepiolite and klinoptilolite. In addition, other suitable substances include vegetable carrier substances such as wheat flour, wheat bran, and soy shell flour as well as other related compounds. Calcium carbonate can also be used as a carrier substance. Another useful carrier substance includes grape seed flour, which is a known carrier substance used frequently in animals' feed.

A combination of the active elements with clay minerals also result in an optimal utilization of the active elements, because of the slow release effect of clay minerals. A combination with clay minerals thus ensures that the active elements are released in the lower part of the intestine. In other formulations the product includes a combination of liquid from olives and from grapes, as well as a combination of spray dried powders based on the two sources of raw material, without the addition of carrying agents. In one embodiment, liquids as well as spray dried products are given to the animals via drinking water, possibly with a natural emulsifier. In another embodiment, the liquids and/or spray dried products are mixed directly in the feed, for example as a premix.

In the exemplary embodiment, the product contains up to 5 weight % of a feed acceptable organic acid relative to the amount of olive products, by-products and wine by-products measured as dry matter. In addition, the product contains up to 10 weight % of a feed acceptable salt relative to the amount of olive products, by-products and wine by-products measured as dry matter.

In one embodiment, olive leaves, the pomace from olive oil production and the grape pomace are ground before being mixed with the actual carrier substance.

The inventive additive is believed to have a considerable effect on the live-stock's health, production efficiency, feed intake, daily weight gain and feed utilization. It is further believed that the inventive additive reduces the usage of other antioxidants such as vitamin E and selenium in production animals and pets, has antimicrobial and antiviral characteristics, improves nitrogen utilization, and improves the nutrient substance utilization generally. The inventive additive may be used by animal production including animal breeding and production of animal products such as meat, eggs and milk. In one embodiment, the additive is added to the conventional animal feed. Typically the quantity of the additive for 1000 kg feed contains 1-1000 g of the first component and 1-1000 g of the second component, both measured as dry matter, for example as obtained by drying an extract. In a more particular embodiment, the amount of the first component is 1.5-500 g, and more particularly still, 2-100 g for 1000 kg animal feed. In addition, the amount of the second component is more particularly 1.5-500 g, and more particularly still 2-100 g for 1000 kg animal feed.

The above weight amounts refer to dried extracts. In case the plant material is used in another form, for example as ground leaves, the amount of the component in question should be one giving a similar amount of the antioxidative substances.

EXAMPLES

To verify the effect of the additive a series of trials have been carried out on selected Danish farms. The present examples use a spray dried aqueous extract from the press residue product obtained immediately after the pressing out of grape juice, in the following named “Wine extract”.

-   -   “Nor-Guard OV Powder”: Consists of 0.3% Wine extract, 15% dried,         grinded olive leaves, 40.5% sepiolite, and 44.2% flour     -   “Nor-Guard OV 11 Powder”: 50% aqueous extract of olive leaves         and 50% Wine extract     -   “Nor-Guard OV 12 Powder”: 33% aqueous extract of olive leaves         and 67% Wine extract     -   “Nor-Guard OV 21 Powder”: 67% aqueous extract of olive leaves         and 33% Wine extract     -   “Nor-Guard 0 Powder”: 100% Wine extract     -   “Norguard V Powder”: 100% aqueous extract f olive leaves

Example 1 Nor-Guard OV Powder

Trial on a pig farm on Funen. Trial start at weaning on Jun. 9, 2005. The duration of the trial was one week. A group of medium sized pigs were selected for the trial group. Nor-Guard OV Powder was added to the feed at a dosage of 1000 ppm. The addition of 1000 ppm ZnO that, in this herd, is ordinarily administered in the post weaning period to reduce diarrhea was reduced to 500 ppm in the trial group. The control group was administered 1000 ppm ZnO. Except the administration of ZnO and Nor-Guard OV Powder the two groups were managed in the same manner. Diarrhea at weaning is normally observed 4-5 days after weaning on this farm. The farmer's observations showed that the trial group with an addition of 1000 ppm Nor-Guard OV and 500 ppm ZnO performed just as well as the control group with 1000 ppm ZnO, concerning frequency and severity of diarrhea.

Example 2 Nor-Guard OV Powder

Trial on the farm “Bondeseje” in June, 2005. 1000 ppm Nor-Guard OV Powder was administered at weaning for the smallest piglets that often do not do well, which is expressed in a low survival rate or continuously low weight gain. The product was tested on 28 weak piglets. None of the weak piglets died which stands in contrast to the normal observations in these groups. According to the farmer's observations the small-trial pigs performed as well as the larger pigs.

Example 3 Nor-Guard OV 11 Powder

Trial on the farm “Svenstrup” from Sep. 8 to Sep. 29, 2005. Sixty-six weaned pigs were divided into two groups, the control group was fed with standard mixed feed and the trial group was fed with standard mixed feed and 15 ppm Nor-Guard OV 11 Powder, which was mixed in as a premix with wheat flour and sepiolite as carrying agents, and in a dosage of 2000 ppm of the premix. Results Control group Trial group Diff. % Number of pigs 33 33 ±0.0% Av. start weight, kg 6.88 6.92 +0.6% Av. end weight, kg 10.72 11.38 +6.2% Growth/pig/day, grams 159 213 +34.0% Feed consumption/pig/day, 0.28 0.31 +10.7% kg Feed conversion, kg/kg 1.75 1.46 −16.6% growth Mortality, number of pigs 3 0 —

The results indicate an improved weight gain and feed conversion of 16.6% and 34.0%, respectively, when Nor-Guard OV 11 Powder was added to the feed. Moreover, the farmer confirms that the pigs fed with Nor-Guard OV 11 Powder thrived considerably better.

Example 4 Nor-Guard OV 12 Powder

Trial on the farm “Svenstrup Gods” from Sep. 8 to Sep. 29, 2005. 65 weaned pigs were divided into two groups, the control group was fed with standard mixed feed and the trial group was fed with standard mixed feed and 15 ppm Nor-Guard OV 12 Powder, which was mixed in as a premix with wheat flour and sepiolite as carrying agents, and in a dosage of 2000 ppm of the premix. Results Control group Trial group Diff. % Number of pigs 32 33 +3.1% Av. start weight, kg 6.88 6.88 ±0.0% Av. end weight, kg 10.72 11.05 +3.1% Growth/pig/day, grams 159 196 +23.3% Feed consumption/pig/day, 0.28 0.32 +14.3% kg Feed conversion, kg/kg 1.75 1.63 −6.9% growth Mortality, number of pigs 3 0 —

The results indicate an improved weight gain and feed conversion of 23.3% and 14.3%, respectively, when Nor-Guard OV 12 Powder was added to the feed.

Example 5 Nor-Guard OV 21 Powder

Trial on the farm “Svenstrup Gods” from Sep. 8 to Sep. 29, 2005. 65 weaned pigs were divided into two groups, the control group was fed with standard mixed feed and the trial group was fed with standard mixed feed and 15 ppm Nor-Guard 21 Powder, which was mixed in as a premix with wheat flour and sepiolite as carrying agents, and in a dosage of 2000 ppm of the premix. Results Control group Trial group Diff. % Number of pigs 33 33 ±0.0% Av. start weight, kg 6.88 6.87 −0.1% Av. end weight, kg 10.72 11.88 +10.8% Growth/pig/day, grams 159 229 +44.0% Feed consumption/pig/day, 0.28 0.32 +14.3% kg Feed conversion, kg/kg 1.75 1.41 −19.4% growth Mortality, number of pigs 3 2 —

The results indicate an improved weight gain and feed conversion of 44.0% and 19.4% respectively, when Nor-Guard OV 21 Powder was added to the feed.

Example 6 Nor-Guard OV 11 Powder

Trial on the farm “Gilleleje” from Sep. 7 to Sep. 28, 2005. 34 weaned pigs were divided into two groups, the control group was fed with standard mixed feed and the trial group was fed with standard mixed feed and 15 ppm Nor-Guard OV 11 Powder, which was mixed in as a premix with wheat flour and sepiolite as carrying agents, and in a dosage of 2000 ppm of the premix. Results Control group Trial group Diff. % Number of pigs 17 17 ±0.0% Av. start weight, kg 5.88 6.00 +0.2% Av. end weight, kg 10.65 11.29 +6.0% Growth/pig/day, grams 227 252 +11.1% Feed consumption/pig/day, 0.32 0.36 +11.1% kg Feed conversion, kg/kg 1.42 1.42 ±0.0% growth Mortality, number of pigs 0 0 ±0.0%

The results indicate an improved weight gain of 11.1% when Nor-Guard OV 11 Powder was added to the feed.

Example 7 Nor-Guard OV Powder

Trial on the farm “Gilleleje” from Jul. 27 to Aug. 17, 2005. 34 weaned pigs were divided into two groups, the control group was fed with the farm's standard mixed feed and the trial group was fed with standard mixed feed with 1000 ppm Nor-Guard OV Powder. Results Control group Trial group Diff. % Number of pigs 17 17 ±0.0% Av. start weight, kg 7.47 7.35 −0.02% Av. end weight, kg 11.82 12.71 +7.5% Growth/pig/day, grams 207.3 254.9 +23.2% Feed consumption/pig/day, 0.34 0.40 +15.9% kg Feed conversion, kg/kg 1.66 1.57 −5.4% growth Mortality, number of pigs 0 0 —

The results indicate an improved weight gain and feed conversion of 23.2% and 5.4%, respectively, when Nor-Guard OV Powder was added to the feed. The feed intake in the two groups was the same during the first nine days of the trial. During the final twelve days of the trial the control group had a 20% higher feed consumption than the trial group.

Example 8 Nor-Guard OV 11 Powder

Trial on the farm “Svenstrup Gods” from Sep. 29 to Oct. 10, 2005. 66 weaned pigs were divided into two groups, the control group was fed with standard mixed feed and the trial group was fed with standard mixed feed and 15 ppm Nor-Guard OV 11 Powder, which was mixed in as a premix with wheat flour and sepiolite as carrying agents, and in a dosage of 2000 ppm of the premix. Results Control group Trial group Diff. % Number of pigs 33 33 ±0.0% Av. start weight, kg 6.91 6.94 +0.5% Av. End weight, kg 8.47 8.93 +5.5% Growth/pig/day, grams 136 181 +33.0% Feed consumption/pig/day, 0.22 0.21 −4.7% kg Feed conversion, kg/kg 1.59 1.14 −28.1% growth Mortality, number of pigs 3 0

The results indicate an improved weight gain and feed conversion of 33.0% and 28.1%, respectively, when Nor-Guard OV 11 Powder was added to the feed.

Example 9 Nor-Guard OV 11 Powder Compared to Single Elements

Trial on the farm “Svenstrup Gods” from Oct. 24 to Oct. 31, 2005. One-hundred-and-eighty weaned pigs were divided into four groups as follows:

-   -   control group fed with standard mixed feed.     -   trial group 0 fed with standard mixed feed and 15 ppm Nor-Guard         0 Powder, which was mixed in the shape of a premix with wheat         flour and sepiolite as carrying agents, and in a dosage of 2000         ppm of the premix.     -   trial group V fed with standard mixed feed and 15 ppm Nor-Guard         V Powder, which was mixed in the shape of a premix with wheat         flour and sepiolite as carrying agents, and in a dosage of 2000         ppm of the premix.

trial group OV fed with standard mixed feed and 15 ppm Nor-Guard OV 11 Powder, which was mixed in the shape of a premix with wheat flour and sepiolite as carrying agents, and in a dosage of 2000 ppm of the premix. Results: Control and trial group O Control group Trial group Diff. % Number of pigs 45 45 ±0.0% Av. start weight, kg 5.59 5.58 −0.32% Growth/pig/day, grams 134.6 150.0 +11.4% Feed consumption/pig/day, 0.23 0.25 +8.7% kg Feed conversion, kg/kg 1.69 1.66 −1.8% growth Mortality, number of pigs 1 1 —

The results indicate an improved weight gain, feed consumption and feed conversion of 11.4%, 8.7% and 1.8%, respectively, when Nor-Guard 0 Powder was added to the feed. Results: Control and trial group V Control group Trial group Diff. % Number of pigs 45 45 ±0.0% Av. start weight, kg 5.59 5.58 −0.32% Growth/pig/day, grams 134.6 149.8 +11.3% Feed consumption/pig/day, 0.23 0.25 +8.7% kg Feed conversion, kg/kg 1.69 1.65 −2.4% growth Mortality, number of pigs 1 0 —

The results indicate an improved weight gain, feed consumption and feed conversion of 11.3%, 8.7% and 2.4%, respectively, when Nor-Guard V Powder was added to the feed. Results: Control and trial group OV Control group Trial group Diff. % Number of pigs 45 45 ±0.0% Av. start weight, kg 5.59 5.58 −0.32% Growth/pig/day, grams 134.6 173.3 +28.8% Feed consumption/pig/day, 0.23 0.26 +13.0% kg Feed conversion, kg/kg 1.69 1.48 −12.4% growth Mortality, number of pigs 1 0 —

The results indicate an improved weight gain, feed consumption and feed conversion of 28.8%, 13.0% and 12.4%, respectively, when Nor-Guard OV 11 Powder was added to the feed.

In summary, the results showed an improved weight gain, feed consumption and feed conversion when Nor-Guard OV11 Powder was added to the feed compared to inclusion of Nor-Guard 0 Powder or Nor-Guard V Powder or the control group.

The above description of the invention reveals that it is obvious that it can be varied in many ways. Such variations are not to be considered a deviation from the scope of the invention, and all such modifications which are obvious to persons skilled in the art are also to be considered encompassed by the scope of the succeeding claims. 

1. A natural intestine-functional additive with antioxidative properties for utilization as an additive in animal feed and containing natural and/or nature identical active substances comprising: a first active component containing antioxidative active substances derived from plant material from olive plants (Olea europaea L); and a second active component containing antioxidative active substances derived from plant material from grae plants (Vitis Vinifera L).
 2. An additive according to claim 1 wherein the first component is derived from at lest one of olive leaves, an extract thereof, and a residual product remaining after removal of one or more substances of olive leaves by extraction.
 3. An additive according to claim 1 wherein the first component is derived from at least one of a by-product that is a residual product from the production of olive oil, and a by-product that is a residual product after the removal of one or more substances by extraction of the olive by-product.
 4. An additive according to claim 1 wherein the second component is derived from at least one of grape seeds and grape skin.
 5. An additive according to claim 4 wherein the second component is derived from at least one of a primary pomace that appears after grape juice pressing, a secondary pomace that is a residual product after fermentation of the primary pomace, and a tertiary pomace that is a residual product from a secondary pomace after removal of one or more substances by extraction.
 6. An additive according to claim 2 wherein the first component is a combination of at least two of olive leaves, an extract thereof, and a residual product remaining after removal of one or more substances of olive leaves by extraction.
 7. An additive according to claim 3 wherein the first component is a combination of at least two of a by-product that is a residual product from the production of olive oil, and a by-product that is a residual product after the removal of one or more substances by extraction of the olive by-product.
 8. An additive according to claim 4 wherein the second component is a combination of grape seeds and grape skin.
 9. An additive according to claim 5 wherein the second component is a combination of at least two of a primary pomace that appears after grape juice pressing, a secondary pomace that is a residual product after fermentation of the primary pomace, and a tertiary pomace that is a residual product from a secondary pomace after removal of one or more substances by extraction.
 10. An additive according to claim 1 wherein the quantity of the additive for 1000 kg feeds contains 1-5000 g of the first component, calculated as the dry matter of a dried extract.
 11. An additive according to claim 1 wherein the quantity of the additive for 1000 kg feed contains 1-5000 g of the second component, calculated as the dry matter of a dried extract.
 12. A feed mix for domestic animals comprising the components in claim 1 mixed with conventional feed.
 13. A management practice in domestic animal breeding and production comprising feeding the animals a feed mix in accordance with claim
 12. 14.-16. (canceled)
 17. An additive according to claim 1 wherein the first active component contains antioxidative substances that are at least partially soluble in the oil phase, and the second active component contains antioxidative substances that are at least partially soluble in the water phase.
 18. An additive according to claim 17 further comprising a third antioxidative substance that is soluble in both the water phase and the oil phase.
 19. An additive according to claim 18 wherein said third antioxidative substance is derived from one of olive plants and grape plants. 